DYSCALCULIA, a Venus flytrap mutant without the ability to count action potentials
A. Iosip, S. Scherzer, S. Bauer, D. Becker, M. Krischke, K. Al-Rasheid, J. Schultz, I. Kreuzer, and R. Hedrich. Curr Biol, 33 (3):
589-596 e5(2023)Iosip, Anda-Larisa
Scherzer, Sonke
Bauer, Sonja
Becker, Dirk
Krischke, Markus
Al-Rasheid, Khaled A S
Schultz, Jorg
Kreuzer, Ines
Hedrich, Rainer
eng
Research Support, Non-U.S. Gov't
England
2023/01/25
Curr Biol. 2023 Feb 6;33(3):589-596.e5. doi: 10.1016/j.cub.2022.12.058. Epub 2023 Jan 23..
DOI: 10.1016/j.cub.2022.12.058
Abstract
The Venus flytrap Dionaea muscipula estimates prey nutrient content by counting trigger hair contacts initiating action potentials (APs) and calcium waves traveling all over the trap.(1)(,)(2)(,)(3) A first AP is associated with a subcritical rise in cytosolic calcium concentration, but when the second AP arrives in time, calcium levels pass the threshold required for fast trap closure. Consequently, memory function and decision-making are timed via a calcium clock.(3)(,)(4) For higher numbers of APs elicited by the struggling prey, the Ca(2+) clock connects to the networks governed by the touch hormone jasmonic acid (JA), which initiates slow, hermetic trap sealing and mining of the animal food stock.(5) Two distinct phases of trap closure can be distinguished within Dionaea's hunting cycle: (1) very fast trap snapping requiring two APs and crossing of a critical cytosolic Ca(2+) level and (2) JA-dependent slow trap sealing and prey processing induced by more than five APs. The Dionaea mutant DYSC is still able to fire touch-induced APs but does not snap close its traps and fails to enter the hunting cycle after prolonged mechanostimulation. Transcriptomic analyses revealed that upon trigger hair touch/AP stimulation, activation of calcium signaling is largely suppressed in DYSC traps. The observation that external JA application restored hunting cycle progression together with the DYSC phenotype and its transcriptional landscape indicates that DYSC cannot properly read, count, and decode touch/AP-induced calcium signals that are key in prey capture and processing.
Iosip, Anda-Larisa
Scherzer, Sonke
Bauer, Sonja
Becker, Dirk
Krischke, Markus
Al-Rasheid, Khaled A S
Schultz, Jorg
Kreuzer, Ines
Hedrich, Rainer
eng
Research Support, Non-U.S. Gov't
England
2023/01/25
Curr Biol. 2023 Feb 6;33(3):589-596.e5. doi: 10.1016/j.cub.2022.12.058. Epub 2023 Jan 23.
%0 Journal Article
%1 iosip2023dyscalculia
%A Iosip, A. L.
%A Scherzer, S.
%A Bauer, S.
%A Becker, D.
%A Krischke, M.
%A Al-Rasheid, K. A. S.
%A Schultz, J.
%A Kreuzer, I.
%A Hedrich, R.
%D 2023
%J Curr Biol
%K Animals myOwn uni_network
%N 3
%P 589-596 e5
%R 10.1016/j.cub.2022.12.058
%T DYSCALCULIA, a Venus flytrap mutant without the ability to count action potentials
%U https://www.ncbi.nlm.nih.gov/pubmed/36693369
%V 33
%X The Venus flytrap Dionaea muscipula estimates prey nutrient content by counting trigger hair contacts initiating action potentials (APs) and calcium waves traveling all over the trap.(1)(,)(2)(,)(3) A first AP is associated with a subcritical rise in cytosolic calcium concentration, but when the second AP arrives in time, calcium levels pass the threshold required for fast trap closure. Consequently, memory function and decision-making are timed via a calcium clock.(3)(,)(4) For higher numbers of APs elicited by the struggling prey, the Ca(2+) clock connects to the networks governed by the touch hormone jasmonic acid (JA), which initiates slow, hermetic trap sealing and mining of the animal food stock.(5) Two distinct phases of trap closure can be distinguished within Dionaea's hunting cycle: (1) very fast trap snapping requiring two APs and crossing of a critical cytosolic Ca(2+) level and (2) JA-dependent slow trap sealing and prey processing induced by more than five APs. The Dionaea mutant DYSC is still able to fire touch-induced APs but does not snap close its traps and fails to enter the hunting cycle after prolonged mechanostimulation. Transcriptomic analyses revealed that upon trigger hair touch/AP stimulation, activation of calcium signaling is largely suppressed in DYSC traps. The observation that external JA application restored hunting cycle progression together with the DYSC phenotype and its transcriptional landscape indicates that DYSC cannot properly read, count, and decode touch/AP-induced calcium signals that are key in prey capture and processing.
@article{iosip2023dyscalculia,
abstract = {The Venus flytrap Dionaea muscipula estimates prey nutrient content by counting trigger hair contacts initiating action potentials (APs) and calcium waves traveling all over the trap.(1)(,)(2)(,)(3) A first AP is associated with a subcritical rise in cytosolic calcium concentration, but when the second AP arrives in time, calcium levels pass the threshold required for fast trap closure. Consequently, memory function and decision-making are timed via a calcium clock.(3)(,)(4) For higher numbers of APs elicited by the struggling prey, the Ca(2+) clock connects to the networks governed by the touch hormone jasmonic acid (JA), which initiates slow, hermetic trap sealing and mining of the animal food stock.(5) Two distinct phases of trap closure can be distinguished within Dionaea's hunting cycle: (1) very fast trap snapping requiring two APs and crossing of a critical cytosolic Ca(2+) level and (2) JA-dependent slow trap sealing and prey processing induced by more than five APs. The Dionaea mutant DYSC is still able to fire touch-induced APs but does not snap close its traps and fails to enter the hunting cycle after prolonged mechanostimulation. Transcriptomic analyses revealed that upon trigger hair touch/AP stimulation, activation of calcium signaling is largely suppressed in DYSC traps. The observation that external JA application restored hunting cycle progression together with the DYSC phenotype and its transcriptional landscape indicates that DYSC cannot properly read, count, and decode touch/AP-induced calcium signals that are key in prey capture and processing.},
added-at = {2024-02-15T15:08:22.000+0100},
author = {Iosip, A. L. and Scherzer, S. and Bauer, S. and Becker, D. and Krischke, M. and Al-Rasheid, K. A. S. and Schultz, J. and Kreuzer, I. and Hedrich, R.},
biburl = {https://www.bibsonomy.org/bibtex/2387bc423a8583a57cf132ecc006c3c3c/jvsi_all},
doi = {10.1016/j.cub.2022.12.058},
interhash = {aa2c52674e8be8f886f33028664c7930},
intrahash = {387bc423a8583a57cf132ecc006c3c3c},
issn = {1879-0445 (Electronic)
0960-9822 (Linking)},
journal = {Curr Biol},
keywords = {Animals myOwn uni_network},
note = {Iosip, Anda-Larisa
Scherzer, Sonke
Bauer, Sonja
Becker, Dirk
Krischke, Markus
Al-Rasheid, Khaled A S
Schultz, Jorg
Kreuzer, Ines
Hedrich, Rainer
eng
Research Support, Non-U.S. Gov't
England
2023/01/25
Curr Biol. 2023 Feb 6;33(3):589-596.e5. doi: 10.1016/j.cub.2022.12.058. Epub 2023 Jan 23.},
number = 3,
pages = {589-596 e5},
timestamp = {2024-02-15T15:11:55.000+0100},
title = {DYSCALCULIA, a Venus flytrap mutant without the ability to count action potentials},
type = {Journal Article},
url = {https://www.ncbi.nlm.nih.gov/pubmed/36693369},
volume = 33,
year = 2023
}